Inhibition of cadherin function differentially affects markers of terminal differentiation in cultured human keratinocytes

1999 ◽  
Vol 112 (24) ◽  
pp. 4569-4579
Author(s):  
M.D. Hines ◽  
H.C. Jin ◽  
M.J. Wheelock ◽  
P.J. Jensen
Keyword(s):  
Terminal Differentiation ◽  
Human Keratinocytes ◽  
Keratinocyte Differentiation ◽  
Differentiation Markers ◽  
Protein Levels ◽  
Surface Molecules ◽  
Transglutaminase 1 ◽  
Differentiation Marker ◽  
E Cadherin

Cadherin function is required for normal keratinocyte intercellular adhesion and stratification. In the present study, we have investigated whether cadherin-cadherin interactions may also modulate keratinocyte differentiation, as evidenced by alterations in the levels of several differentiation markers. Confluent keratinocyte cultures, propagated in low Ca(2+) medium in which cadherins are not active, were pre-incubated with antibodies that block the function of E-cadherin and/or P-cadherin; Ca(2+)was then elevated to 1 mM to activate the cadherins and induce differentiation. In control cultures (incubated with no antibody or with antibodies to other cell surface molecules), Ca(2+) elevation induced an increase in type 1 transglutaminase, profilaggrin, and loricrin, as measured by western blotting and in agreement with previous results. However, the concurrent addition of antibodies against both E- and P-cadherin prevented this increase in transglutaminase 1 protein. Incubation with either antibody alone had no consistent effect. Profilaggrin and loricrin, which are later markers of keratinocyte differentiation, responded differently from transglutaminase 1 to addition of antibodies. In the presence of anti-E-cadherin antibody, both loricrin and profilaggrin levels were dramatically enhanced compared to the high Ca(2+) control cells, while addition of antibody to P-cadherin slightly attenuated the Ca(2+)-induced increase. In the presence of both antibodies, loricrin and profilaggrin protein levels were intermediate between those observed in the presence of either antibody alone. The expression of involucrin, however, was unaffected by addition of antibodies. In addition, effects of the anti-cadherin antibodies were not secondary to alterations in proliferation or programmed cell death, as determined by several independent assays of these processes. Thus, the consequences of cadherin inhibition depend upon both the particular cadherin and the differentiation marker under study. Taken together, these data suggest that E-cadherin and P-cadherin contribute to the orderly progression of terminal differentiation in the epidermis in multiple ways.

scholarly journals Platelet-Released Growth Factors Induce Differentiation of Primary Keratinocytes

2017 ◽  
Vol 2017 ◽  
pp. 1-12 ◽  
Author(s):  
Andreas Bayer ◽  
Mersedeh Tohidnezhad ◽  
Justus Lammel ◽  
Sebastian Lippross ◽  
Peter Behrendt ◽  
...  
Keyword(s):  
Gene Expression ◽  
Growth Factors ◽  
Terminal Differentiation ◽  
Human Keratinocytes ◽  
Keratinocyte Differentiation ◽  
Dependent Manner ◽  
Primary Human Keratinocytes ◽  
Transglutaminase 1 ◽  
Keratin 1

Autologous thrombocyte concentrate lysates, for example, platelet-released growth factors, (PRGFs) or their clinically related formulations (e.g., Vivostat PRF®) came recently into the physicians’ focus as they revealed promising effects in regenerative and reparative medicine such as the support of healing of chronic wounds. To elucidate the underlying mechanisms, we analyzed the influence of PRGF and Vivostat PRF on human keratinocyte differentiation in vitro and on epidermal differentiation status of skin wounds in vivo. Therefore, we investigated the expression of early (keratin 1 and keratin 10) and late (transglutaminase-1 and involucrin) differentiation markers. PRGF treatment of primary human keratinocytes decreased keratin 1 and keratin 10 gene expression but induced involucrin and transglutaminase-1 gene expression in an epidermal growth factor receptor- (EGFR-) dependent manner. In concordance with these results, microscopic analyses revealed that PRGF-treated human keratinocytes displayed morphological features typical of keratinocytes undergoing terminal differentiation. In vivo treatment of artificial human wounds with Vivostat PRF revealed a significant induction of involucrin and transglutaminase-1 gene expression. Together, our results indicate that PRGF and Vivostat PRF induce terminal differentiation of primary human keratinocytes. This potential mechanism may contribute to the observed beneficial effects in the treatment of hard-to-heal wounds with autologous thrombocyte concentrate lysates in vivo.

scholarly journals Phosphoprotein Phosphatase 1 Is Required for Extracellular Calcium-Induced Keratinocyte Differentiation

2016 ◽  
Vol 2016 ◽  
pp. 1-11 ◽  
Author(s):  
Chandrama Shrestha ◽  
Yuanyuan Tang ◽  
Hong Fan ◽  
Lusha Li ◽  
Qin Zeng ◽  
...  
Keyword(s):  
Plasma Membrane ◽  
Second Messengers ◽  
Human Keratinocytes ◽  
Extracellular Calcium ◽  
Keratinocyte Differentiation ◽  
Differentiation Markers ◽  
Calcium Stimulation ◽  
E Cadherin

Extracellular calcium is a major regulator of keratinocyte differentiation in vitro and appears to play that role in vivo, but the mechanism is unclear. We have previously demonstrated that, following calcium stimulation, PIP5K1αis recruited by the E-cadherin-β-catenin complex to the plasma membrane where it provides the substrate PIP2 for both PI3K and PLC-γ1. This signaling pathway is critical for calcium-induced generation of second messengers including IP3 and intracellular calcium and keratinocyte differentiation. In this study, we explored the upstream regulatory mechanism by which calcium activates PIP5K1αand the role of this activation in calcium-induced keratinocyte differentiation. We found that treatment of human keratinocytes in culture with calcium resulted in an increase in serine dephosphorylation and PIP5K1αactivation. PP1 knockdown blocked extracellular calcium-induced increase in serine dephosphorylation and activity of PIP5K1αand induction of keratinocyte differentiation markers. Knockdown of PLC-γ1, the downstream effector of PIP5K1α, blocked upstream dephosphorylation and PIP5K1αactivation induced by calcium. Coimmunoprecipitation revealed calcium induced recruitment of PP1 to the E-cadherin-catenin-PIP5K1αcomplex in the plasma membrane. These results indicate that PP1 is recruited to the extracellular calcium-dependent E-cadherin-catenin-PIP5K1αcomplex in the plasma membrane to activate PIP5K1α, which is required for PLC-γ1 activation leading to keratinocyte differentiation.

scholarly journals Phosphatidylinositol-4-phosphate 5-kinase 1α Mediates Extracellular Calcium-induced Keratinocyte Differentiation

2009 ◽  
Vol 20 (6) ◽  
pp. 1695-1704 ◽  
Author(s):  
Zhongjian Xie ◽  
Sandra M. Chang ◽  
Sally D. Pennypacker ◽  
Er-Yuan Liao ◽  
Daniel D. Bikle
Keyword(s):  
Plasma Membrane ◽  
Second Messengers ◽  
Human Keratinocytes ◽  
Extracellular Calcium ◽  
Keratinocyte Differentiation ◽  
Activity Levels ◽  
Differentiation Markers ◽  
Resultant Increase ◽  
Phosphatidylinositol 4 ◽  
E Cadherin

Extracellular calcium (Cao) is a major regulator of keratinocyte differentiation, but the mechanism is unclear. Phosphatidylinositol-4-phosphate 5-kinase 1α (PIP5K1α) is critical in synthesizing phosphatidylinositol 4,5-bisphosphate [PI(4,5)P2]. In this study, we sought to determine whether PIP5K1α plays a role in mediating the ability of Cao to induce keratinocyte differentiation. We found that treatment of human keratinocytes in culture with Cao resulted in increased PIP5K1α level and activity, as well as PI(4,5)P2 level, binding of phosphatidylinositol 3,4,5-triphosphate [PI(3,4,5)P3] to and activation of phospholipase C-γ1 (PLC-γ1), with the resultant increase in inositol 1,4,5-trisphosphate (IP3) and intracellular calcium (Cai). Knockdown of PIP5K1α in human keratinocytes blocked Cao-induced increases in the binding of PI(3,4,5)P3 to PLC-γ1; PLC-γ1 activity; levels of PI(4,5)P2, IP3, and Cai; and induction of keratinocyte differentiation markers. Coimmunoprecipitation and confocal studies revealed that Cao stimulated PIP5K1α recruitment to the E-cadherin–catenin complex in the plasma membrane. Knockdown of E-cadherin or β-catenin blocked Cao-induced activation of PIP5K1α. These results indicate that after Cao stimulation PIP5K1α is recruited by the E-cadherin–catenin complex to the plasma membrane where it provides the substrate PI(4,5)P2 for both PI3K and PLC-γ1. This signaling pathway is critical for Cao-induced generation of the second messengers IP3 and Cai and keratinocyte differentiation.

scholarly journals Addressing differentiation in live human keratinocytes by assessment of membrane packing order

2020 ◽  
Author(s):  
Danuta Gutowska-Owsiak ◽  
Christian Eggeling ◽  
Graham S Ogg ◽  
Jorge Bernardino de la Serna
Keyword(s):  
Stratum Corneum ◽  
Single Cell ◽  
Human Keratinocytes ◽  
Keratinocyte Differentiation ◽  
Dead Cell ◽  
Differentiation Markers ◽  
Complex Processes ◽  
Impermeable Barrier ◽  
Therapeutic Development ◽  
Polarity Sensitive

Differentiation of keratinocytes is critical for epidermal stratification and formation of a protective stratum corneum. It involves a series of complex processes leading through gradual changes in characteristics and functions of keratinocytes up to their programmed cell death via cornification. The stratum corneum is an impermeable barrier, comprised of dead cell remnants (corneocytes) embedded within lipid matrix. Corneocyte membranes are comprised of specialized lipids linked to late differentiation proteins, contributing to the formation of a highly stiff and mechanically strengthen layer. To date, the assessment of the progression of keratinocyte differentiation is only possible by determination of specific differentiation markers, e.g. by using proteomics-based approaches. Unfortunately, this requires fixation or cell lysis, and currently there is no robust methodology available to study differentiation in living cells, neither at a single cell, nor in high throughput. Here, we explore a new live-cell based approaches for screening differentiation advancement in keratinocytes, in a “calcium switch” model. We employ a polarity-sensitive dye, Laurdan, and Laurdan general polarization function (GP) as a reporter of the degree of membrane lateral packing order or condensation, as an adequate marker of differentiation. We show that the assay is straightforward and can be conducted either on a single cell level using confocal spectral imaging or on the ensemble level using a fluorescence plate reader. Such systematic quantification may become useful for understanding mechanisms of keratinocyte differentiation, such as the role of membrane inhomogeneities in stiffness, and for future therapeutic development.

scholarly journals Konjac Ceramide (kCer)-Mediated Signal Transduction of the Sema3A Pathway Promotes HaCaT Keratinocyte Differentiation

Biology ◽  
2022 ◽  
Vol 11 (1) ◽  
pp. 121
Author(s):  
Seigo Usuki ◽  
Noriko Tamura ◽  
Tomohiro Tamura ◽  
Kohei Yuyama ◽  
Daisuke Mikami ◽  
...  
Keyword(s):  
Cell Migration ◽  
Cell Differentiation ◽  
Intracellular Signaling ◽  
Keratinocyte Differentiation ◽  
Hacat Cells ◽  
Differentiation Markers ◽  
Signaling Mechanism ◽  
Protein Levels ◽  
Intracellular Signaling Cascade ◽  
Hacat Keratinocyte

Histamines suppress epidermal keratinocyte differentiation. Previously, we reported that konjac ceramide (kCer) suppresses histamine-stimulated cell migration of HaCaT keratinocytes. kCer specifically binds to Nrp1 and does not interact with histamine receptors. The signaling mechanism of kCer in HaCaT cells is also controlled by an intracellular signaling cascade activated by the Sema3A-Nrp1 pathway. In the present study, we demonstrated that kCer treatment induced HaCaT keratinocyte differentiation after migration of immature cells. kCer-induced HaCaT cell differentiation was accompanied by some features of keratinocyte differentiation markers. kCer induced activating phosphorylation of p38MAPK and c-Fos, which increased the protein levels of involucrin that was the latter differentiation marker. In addition, we demonstrated that the effects of both kCer and histamines are regulated by an intracellular mechanism of Rac1 activation/RhoA inhibition downstream of the Sema3A/Nrp1 receptor and histamine/GPCR pathways. In summary, the effects of kCer on cell migration and cell differentiation are regulated by cascade crosstalk between downstream Nrp1 and histamine-GPCR pathways in HaCaT cells.

Decreased expression of fibronectin and the alpha 5 beta 1 integrin during terminal differentiation of human keratinocytes

1991 ◽  
Vol 98 (2) ◽  
pp. 225-232 ◽  
Author(s):  
L.J. Nicholson ◽  
F.M. Watt
Keyword(s):  
Messenger Rna ◽  
Basal Layer ◽  
Terminal Differentiation ◽  
Human Keratinocytes ◽  
Epidermal Keratinocytes ◽  
Human Epidermal Keratinocytes ◽  
Fibronectin Receptor ◽  
Beta 1 Integrin ◽  
Differentiation Marker ◽  
Unit Gravity Sedimentation

We have examined the expression of fibronectin and the alpha 5 beta 1 fibronectin receptor during terminal differentiation of human epidermal keratinocytes, using involucrin as a terminal differentiation marker. The levels of mRNAs encoding fibronectin and the alpha 5 and beta 1 integrin subunits were measured in keratinocyte populations that had been enriched for involucrin-negative or -positive cells by unit gravity sedimentation or suspension-induced terminal differentiation. All three mRNAs decreased in abundance during terminal differentiation, and the corresponding proteins were localised by immunofluorescence to the basal layer in stratified colonies. We also examined expression in ndk, a strain of epidermal cells with a complete block in terminal differentiation, which, as a result, do not express involucrin. Messenger RNA levels for fibronectin and the alpha 5 and beta 1 subunits were higher in ndk, than in unfractionated keratinocytes and the corresponding proteins were expressed by all ndk, consistent with a basal keratinocyte phenotype. We conclude that expression of fibronectin and the alpha 5 beta 1 fibronectin receptor decreases during terminal differentiation and that such changes are likely to play a role in the selective migration of terminally differentiating cells from the basal epidermal layer.

scholarly journals The role of cathepsin E in terminal differentiation of keratinocytes

2011 ◽  
Vol 392 (6) ◽  
Author(s):  
Tomoyo Kawakubo ◽  
Atsushi Yasukochi ◽  
Kuniaki Okamoto ◽  
Yoshiko Okamoto ◽  
Seiji Nakamura ◽  
...  
Keyword(s):  
Hair Follicle ◽  
Primary Cultures ◽  
Terminal Differentiation ◽  
Epidermal Differentiation ◽  
Keratinocyte Differentiation ◽  
Epidermal Keratinocytes ◽  
Marker Genes ◽  
Differentiation Markers ◽  
Cathepsin E

Abstract Cathepsin E (CatE) is predominantly expressed in the rapidly regenerating gastric mucosal cells and epidermal keratinocytes, in addition to the immune system cells. However, the role of CatE in these cells remains unclear. Here we report a crucial role of CatE in keratinocyte terminal differentiation. CatE deficiency in mice induces abnormal keratinocyte differentiation in the epidermis and hair follicle, characterized by the significant expansion of corium and the reduction of subcutaneous tissue and hair follicle. In a model of skin papillomas formed in three different genotypes of syngeneic mice, CatE deficiency results in significantly reduced expression and altered localization of the keratinocyte differentiation induced proteins, keratin 1 and loricrin. Involvement of CatE in the regulation of the expression of epidermal differentiation specific proteins was corroborated by in vitro studies with primary cultures of keratinocytes from the three different genotypes of mice. In wild-type keratinocytes after differentiation inducing stimuli, the CatE expression profile was compatible to those of the terminal differentiation marker genes tested. Overexpression of CatE in mice enhances the keratinocyte terminal differentiation process, whereas CatE deficiency results in delayed differentiation accompanying the reduced expression or the ectopic localization of the differentiation markers. Our findings suggest that in keratinocytes CatE is functionally linked to the expression of terminal differentiation markers, thereby regulating epidermis formation and homeostasis.

scholarly journals Thapsigargin suppresses phorbol ester-dependent human involucrin promoter activity by suppressing CCAAT-enhancer-binding protein α (C/EBPα) DNA binding

2000 ◽  
Vol 350 (3) ◽  
pp. 791-796 ◽  
Author(s):  
Sivaprakasam BALASUBRAMANIAN ◽  
Chapla AGARWAL ◽  
Tatiana EFIMOVA ◽  
George R. DUBYAK ◽  
Eric BANKS ◽  
...  
Keyword(s):  
Promoter Activity ◽  
Binding Protein ◽  
Regulatory Region ◽  
Keratinocyte Differentiation ◽  
Calcium Stores ◽  
Mrna Levels ◽  
Promoter Activation ◽  
Protein Levels ◽  
Enhancer Binding Protein ◽  
Differentiation Marker

Human involucrin (hINV) is a keratinocyte differentiation marker expressed in the suprabasal epidermal layers. In cultured keratinocytes hINV mRNA levels are increased 10-fold by a 24-h treatment with 50ng/ml PMA, an agent that promotes keratinocyte differentiation. Previous studies show that thapsigargin (TGN), an agent that depletes intracellular calcium stores, inhibits keratinocyte differentiation. In the present study we show that TGN inhibits the PMA-dependent, differentiation-associated, increase in hINV mRNA levels and hINV promoter activity. Inhibition is half-maximal at 10nM and maximal at 100nM TGN. Neither basal hINV promoter activity nor glyceraldehyde-3-phosphate dehydrogenase mRNA levels are inhibited. Mutation of a functionally important CAATT-enhancer-binding protein (C/EBP) site within the hINV promoter proximal regulatory region eliminates the regulation, suggesting that TGN may effect C/EBP-dependent promoter activation. Consistent with this hypothesis, TGN inhibits C/EBPα-dependent promoter activation via a mechanism that involves inhibition of C/EBPα binding to DNA without changing C/EBPα protein levels. These results suggest that TGN interferes with hINV expression by interfering with C/EBP transcription-factor function.

scholarly journals 2-APB arrests human keratinocyte proliferation and inhibits cutaneous squamous cell carcinomain vitro

2018 ◽  
Author(s):  
Aislyn M. Nelson ◽  
Yalda Moayedi ◽  
Sophie A. Greenberg ◽  
Marlon E. Ruiz ◽  
Uffe B. Jensen ◽  
...  
Keyword(s):  
Gene Expression ◽  
High Risk ◽  
Cell Lines ◽  
Squamous Cell ◽  
Transient Receptor Potential ◽  
Human Keratinocytes ◽  
Keratinocyte Differentiation ◽  
Differentiation Markers ◽  
Keratinocyte Proliferation ◽  
Human Keratinocyte

AbstractBackgroundThe epidermis is a stratified epithelium whose differentiation program is triggered in part by calcium. Dysregulation of keratinocyte differentiation may lead to non-melanoma skin cancers, including cutaneous squamous cell carcinoma (cSCC). The compound 2-aminoethoxydiphenyl borate (2-APB) modulates calcium signaling by altering activity of calcium-permeable channels of the transient receptor potential (TRP) and ORAI families, and is therefore poised to govern signaling pathways that control the balance of keratinocyte proliferation and differentiation.ObjectiveWe sought to determine whether 2-APB alters differentiation of normal human keratinocytes and progression of human cSCCs modelsin vitro.MethodsPrimary human keratinocyte cultures were treated with 2-APB and levels of proliferation (EdU incorporation) and differentiation markers [quantitative PCR (qPCR)] were assessed. Human cSCC biopsies and cell lines were analyzed for TRP and ORAI gene expression via qPCR. cSCC cell lines were cultured in organtypic cultures and analyzed for growth and invasiveness after 2-APB or vehicle treatment.ResultsCulturing human keratinocytes with 2-APB arrested cell proliferation, triggered differentiation-gene expression and altered epidermal stratification, indicating that 2-APB application is sufficient to promote differentiation. In human organotypic cSCC cultures, 2-APB attenuated tumor growth and invasiveness. Finally, expression of a panel of 2-APB-targeted ion channels (TRPV3, TRPV1, TRPC1, OraI1, OraI2 and OraI3) was dysregulated in high-risk cSCC biopsies.ConclusionsCollectively, these findings identify 2-APB as a potential therapeutic for high-risk cSCCs.

scholarly journals Physiological Effects of Manganese Gluconate and Calcium Combination from Saint-Gervais Mont Blanc Spring Water for Human Keratinocytes Differentiation

2021 ◽  
Vol 7 (2) ◽  
pp. 1-6
Author(s):  
Franck Juchaux ◽  
Keyword(s):  
Barrier Function ◽  
Skin Barrier ◽  
Human Keratinocytes ◽  
Spring Water ◽  
Keratinocyte Differentiation ◽  
Skin Barrier Function ◽  
Transglutaminase 1

Alterations of skin barrier function affect quality of life and there is a need to develop dermatological/cosmetic treatments to reinforce or restore it. Inspiring of Hailey-Hailey disease, in which barrier alteration is due to a mutation of a Calcium-transporting protein (ATP2C1), we focused on the role of minerals and more especially those contained in Saint-Gervais Mont Blanc (SGMB) spring water to reinforce barrier function. Objectives: Demonstrate the interest to enrich SGMB spring water with manganese to improve both keratinocytes differentiation and barrier function. Methods: Effects of treatments on the expression of ATP2C1 and on the expression of key markers in keratinocyte differentiation and barrier function were studied by gene expression analysis on keratinocytes monolayers and also by measuring the protein expression of transglutaminase 1 using in situ immunofluorescence and image analysis in keratinocytes monolayers. Results: SGMB spring water stimulates transcriptomic expression of key markers involved in keratinocytes differentiation and barrier function while manganese gluconate has no effect. Combination of both dramatically enhances keratinocytes differentiation, in a synergistic way, at both transcriptomic and protein level. None of treatments modulated ATP2C1 expression. Conclusion: These results highlight the interest to enrich SGMB spring water with manganese to boost keratinocytes differentiation and barrier function.

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